RU2058127C1 - Device for treating diseases of optic canal - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: noise immunity improving unit and control pulse forming unit are brought into the device additionally. Magnetic effect unit is made in form of magnetic stimulator, which has power source, and control unit, which has power converter, energy accumulator, output stage, galvanic decoupling unit, indication unit, and inductors. Output of the device is connected with input of comparator. Output of the comparator is connected with noise immunity improving unit, which has output connected with input of control pulse forming unit. Output of control pulse forming unit is connected with magnetic stimulator through galvanic decoupling unit. Output of galvanic decoupling unit is connected with input of indication unit and with input of output stage. Output stage is connected with power storage, which is connected with power source through power converter. Output of output stage is connected with inductor. EFFECT: improved efficiency of treatment. 1 dwg

Description

 The invention relates to medicine, namely to ophthalmology, and can be used to treat the optic tract as an outpatient or in a clinical setting, as well as in the treatment of the effects of injuries, disorders of capillary circulation.

 A device for magnetotherapy is known (see ed. St. USSR N 971351, class A 61 N 1/42, 1983), consisting of a control unit, inductor holders and inductors, which allows magnetic stimulation in physiotherapy rooms of hospitals and clinics. This device can also be used in ophthalmology for the treatment of the optic tract. However, this device does not have the ability to synchronize exposure to a magnetic field with the pulse of stimulated patients.

 There is a device for reflexology [1] adopted as a prototype, containing a sensor, a comparator, a delay unit, a magnetic exposure unit, which allows you to conduct effects on acupuncture points in synchronization with the patient’s pulse. However, in the treatment of the optic tract, the use of this device is ineffective, since the area and volume of exposure are limited.

 The aim of the invention is to eliminate these disadvantages and increase the effectiveness of the impact and reduce the time of treatment of the optic tract.

 The goal is achieved by the fact that in the known device containing a sensor, a comparator, a magnetic exposure unit, the functions of the sensor are performed by a plethysmograph, the device further comprises a noise immunity enhancement unit and a control pulse generation unit, the magnetic effect unit is made in the form of a magnetic stimulator consisting of an energy source, a unit control, including an energy converter, an energy storage device, an output stage, a galvanic isolation unit, an indication unit, and inductors, the whip output the chart is connected to the input of the comparator, the output of the comparator is connected to the input of the noise immunity increase block, the output of the noise immunity increase block is connected to the input of the control pulse generation unit, and the output of the control pulse formation block is connected to the magnetic stimulator through the galvanic isolation block, the output of the galvanic isolation block is connected to the input of the block indication and with the input of the output stage, which is connected to the energy store connected to the energy source through the energy converter, to during the output stage, inductors are connected.

 The drawing shows a block diagram of a device.

 The device contains a serially connected plethysmograph 1, a comparator 2, a noise immunity enhancement unit 3, a control pulse generating unit 4 of a magnetic stimulator 5, consisting of an energy source 6, a control unit 7, inductors 8. The control unit 7 contains an energy converter 9, an energy storage 10, block 11 galvanic isolation, output stage 12, display unit 13, wherein the output of the plethysmograph 1 is connected to the input of the comparator 2, the output of the comparator 2 is connected to the input of the block 3 to increase noise immunity, the output of block 3 To increase the noise immunity, it is connected to the input of the control pulse generating unit 4, and the output of the control pulse generating unit 4 is connected to the control unit 7 of the magnetic stimulator 5 through the galvanic isolation unit 11, the output of the galvanic isolation unit 11 is connected to the input of the indicating unit 13 and to the input of the output stage 12, which is connected to an energy storage device 10 connected to an energy source 6 through an energy converter 9, and inductors are connected to the output of the output stage 10.

 The device operates as follows.

 The standard plethysmograph, taken from a specific part of the human body, comes from the plethysmograph 1 to the comparator 2, where the phase is locked to the leading edge of the pulse signal corresponding to the heartbeat systole. The received clock signal is fed to the noise immunity increasing unit 3, which limits the passage of the clock signals with a frequency higher than the maximum selected heart rate in patients who can stimulate 250 beats per minute. From the output of the noise immunity enhancement unit 3, the signal is fed to a control pulse generating unit 4, the output of which is a signal for triggering a magnetic stimulator 5. This signal is supplied to the control unit 7 through a galvanic isolation unit 11. The galvanic isolation unit 11 is included in the magnetic stimulator to exclude the galvanic influence of the magnetic stimulator 5, in particular its output stage 12, on the previous blocks and ensure the operation of the device without failures. From the output of the galvanic isolation unit 11, the signal enters the display unit 13 and the output stage 12. The display unit 13 provides an indication of the passage of the stimulating pulse and counting the number of stimulation pulses. The output stage 12 performs the function of a current switch and is open when there is a control pulse at its input. In this case, the inductors 8 are connected to the energy storage device 10 and a magnetic field pulse is generated in the inductors 8. The energy store 10 is connected to a source of energy 6 through a converter 9 of energy.

PRI me R. Patient L., born in 1924 a / c N 6425, was treated at the IRTC "Eye Microsurgery" with a diagnosis of partial atrophy of the optic nerve of the left eye. In April 1988, the patient suffered anterior ischemic neuropathy of the left eye. When contacting the MNTK "MG" visual acuity of the right eye of 0.4 s + 1.0 1.0, visual acuity of the left eye of 0.2 s + 1.0 0.5-0.6. The field of view of the right eye without any changes, the left eye peripheral boundaries are not changed to blue and green borders of the field of vision narrowed to ^about 15. According to EFI, minor changes are determined in the axial bundle of the optic nerve of the left eye. According to electroretinography, a decrease in the functions of the outer layers of the retina in the central part of the left eye is noted. According to computer perimetry, a decrease in photosensitivity to 30 dB is determined, the size of the blind spot is increased, the presence of microscots in the central region of the retina. According to computed tomography, the phenomenon of atherosclerosis in the internal carotid arteries.

 The patient underwent a course of magnetostimulation of the left optic nerve with the device described above, 10 sessions. Positive dynamics are noted. Visual acuity of the left eye 0.5 s + 1.0 0.8-0.9. The visual acuity of the right eye remained unchanged. According to computer perimetry, the disappearance of microscots in the central region of the retina is observed, photosensitivity is restored to normal. According to EFI, there is a positive trend. During dynamic observation for 10 months, the visual functions of the left eye remained stable.

Claims (1)

 DEVICE FOR TREATING DISEASES OF THE VISUAL TRACT, containing a sensor, a comparator, a magnetic exposure unit, characterized in that, in order to increase the effectiveness of the effect and reduce the treatment time, a plethysmograph is used as a sensor, an noise immunity enhancement unit and a control pulse generation unit are introduced into the device, a unit magnetic exposure is made in the form of a magnetic stimulator, consisting of an energy source, a control unit that includes an energy converter, an energy store, you a cascade, a galvanic isolation unit, an indication unit, and inductors, the output of the plethysmograph is connected to the input of the comparator, the output of the comparator with the input of the noise immunity enhancement unit is connected to the input of the control pulse generation unit, and the output of the control pulse formation unit is connected to the magnetic stimulator through the galvanic isolation unit , the output of the galvanic isolation unit is connected to the input of the display unit and the input of the output stage, which is connected to the energy store associated with the source ology energy through the converter, and the output stage output is connected to the inductors.

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